2. Universidad Cardenal Herrera-CEU
Permanent URI for this communityhttps://hdl.handle.net/10637/13
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- Building a "Genetics Social Network" for innovative teaching in Veterinary education
2024 Introduction: Practical competencies are crucial in teaching genetics to veterinary students, enabling them to master molecular genetics techniques for identifying genetic variants and diagnosing genetic diseases encountered in their professional practice. The «Genetics Social Network»” project aims to bridge the gap between theoretical knowledge and practical experience in genetics for veterinary students. By leveraging their familiarity and interest in new technologies, a shift from practice to praxis is proposed, enhancing student engagement, and aligning learning outcomes. This project aims to involve students in teaching by asking them to generate audiovisual material to review genetics techniques, fostering collaborative work and responsibility and enhancing laboratory skills and precision, transforming theory into lived experience. Materials and Methods: The project spanned two academic years, taking place within the practical sessions of the genetics course. A list of the developed molecular genetics techniques was compiled and participating students, usually organized in groups, selected one of them and utilized a part of the session time to produce micro-videos, akin to those on social media platforms. These micro-videos succinctly explained the key steps of the technique and practical tips. Using the Blackboard virtual teaching platform, a dedicated folder was created for sharing the generated micro-videos, enabling all classmates to access them for exam preparation. Additionally, voluntary participation in this project allows students to earn a micro-credential within the Veterinary Communication pathway. Results and discussion: After analysing the results of the first implementation of the project, enhancements were made to the presentation of the project to the students, aiming to promote greater acceptance. The results indicated an increase in student participation and engagement in the second year. Students reported a deeper understanding of genetic practices and expressed appreciation for the hands-on experience the project provided. The social network aspect fostered a sense of community and peer support, which was reflected in improved practical skills. Challenges included fostering increased student engagement and making video editing tools available and familiar to students, thereby enabling those who may hesitate to participate due to resource constraints to contribute as well. Conclusions: The «Genetics Social Network» has demonstrated potential as an effective tool for veterinary education, merging traditional learning with digital innovation. It has shown that when students’ technological affinity is harnessed for educational purposes, it can lead to enhanced learning outcomes. This project serves as a model for future educational innovations, suggesting that the integration of social technology in academia can be both beneficial and transformative.
- Paws, poop, and PCR: unleashing student detectives in genetic exploration
2024 Introduction: Learning molecular genetics techniques is part of the program of the genetics course of the veterinary degree. It is essential to maintain motivation and interest in genetics practice by using a common thread that connects with the students’ interests. This work describes the design, implementation, and results of a gamification strategy developed during two practical sessions in which the student becomes a geneticist to identify which dog a faecal sample collected from the street belongs to, as some municipalities currently do to promote hygiene and public health in their streets. The aim was for students to understand basic concepts and techniques in molecular genetics during these two sessions. This included learning how to extract DNA from different types of samples, describing the amplification using Random Amplification Polymorphic DNA (RAPD), and getting a better understanding of molecular markers and the theory behind Polymerase Chain Reaction (PCR). Methodology: In the first practice, students extracted DNA from fresh dog faeces, while also discussing various DNA sources and extraction methods. Then they used the extracted DNA to create a simulated database of fictional dogs associated with students. They quantified the DNA, analysed its quality, and prepared a dilution to 10ng/μL. In the second practice, the students used RAPD to identify individuals by matching DNA from a simulated collected faeces sample to their fictional dogs DNA database. They performed amplification reactions with various primers pairs, followed by gel electrophoresis, to compare DNA band patterns and identify the dog and the fictional student associated with the uncollected dog faeces. The advantages and limitations of the RAPD technique were discussed, along with its potential applications in veterinary science and genetics. Results and discussion: The students were successful in extracting DNA with concentrations over 100 ng/μL in most cases as well as a good purity with respect to proteins. However, it was found that there was usually a low quality of DNA with respect to salts, although this did not influence the results of the second practice. They were able to generate reproducible RAPD profiles with all primer pairs. The unknown individual could be easily recognized within the database. Conclusions: It is concluded that this educational proposal is an effective option for teaching DNA extraction and the RAPD technique, as well as for many molecular genetics terms and concepts and contributes to the comprehensive training of future veterinary professionals. Additionally, the educational and social value of the practices are highlighted, as they promote interest in science, respect for the environment, and civic responsibility.
- "Listeria spp." isolated from tonsils of wild deer and boars: genomic characterization
2021-02-26 Listeria monocytogenes is a major human and animal foodborne patho-gen. However, data from environmental reservoirs remain scarce. Here, we usedwhole-genome sequencing to characterize Listeria species isolates recovered over 1year from wild animals in their natural habitats in Spain. Three different Listeria spp.(L. monocytogenes [n = 19], Listeria ivanovii subsp. londoniensis [n = 4], and Listeriainnocua [n = 3]) were detected in 23 animal tonsils (9 deer, 14 wild boars) and 2feeding troughs. No Listeria species was detected in feces. L. monocytogenes wasdetected in tonsils of 44.4% (8 out of 18) of deer and 40.7% (11 out of 27) of wildboars. L. monocytogenes isolates belonged to 3 different core genome multilocussequence typing (cgMLST) types (CTs) of 3 distinct sublineages (SL1, SL387, andSL155) from lineages I and II. While cgMLST type L1-SL1-ST1-CT5279 (IVb; clonalcomplex 1 [CC1]) occurred only in one animal, types L1-SL387-ST388-CT5239 (IVb;CC388) and L2-SL155-ST155-CT1170 (IIa; CC155) were retrieved from multiple ani-mals. In addition, L1-SL387-ST388-CT5239 (IVb; CC388) isolates were collected 1 yearapart, revealing their long-term occurrence within the animal population and/orenvironmental reservoir. The presence of identical L. monocytogenes strains in deerand wild boars suggests contamination from a common food or environmentalsource, although interhost transmission cannot be excluded. Pathogenicity islandsLIPI-1, LIPI-3, and LIPI-4 were present in 100%, 5%, and 79% of the L. monocytogenesisolates, respectively, and all L. monocytogenes lineage II isolates (n = 3) carried SSI-1stress islands. This study highlights the need for monitoring L. monocytogenes envi-ronmental contamination and the importance of tonsils as a possible L. monocyto-genes intrahost reservoir.
- Virulence potential of "Listeria monocytogenes" strains recovered from pigs in Spain
2020-11 Background: Listeria monocytogenes is a foodborne bacterial pathogen that causes listeriosis, an infectious disease in animals and people, with pigs acting as asymptomatic reservoirs. In August 2019 an outbreak associated with the consumption of pork meat caused 222 human cases of listeriosis in Spain. Determining the diversity as well as the virulence potential of strains from pigs is important to public health. Methods: The behaviour of 23 L monocytogenes strains recovered from pig tonsils, meat and skin was compared by studying (1) internalin A, internalin B, listeriolysin O, actin assembly-inducing protein and PrfA expression levels, and (2) their invasion and intracellular growth in eukaryotic cells. Results: Marked differences were found in the expression of the selected virulence factors and the invasion and intracellular replication phenotypes of L monocytogenes strains. Strains obtained from meat samples and belonging to serotype 1/2a did not have internalin A anchored to the peptidoglycan. Some strains expressed higher levels of the studied virulence factors and invaded and replicated intracellularly more efficiently than an epidemic L monocytogenes reference strain (F2365). Conclusion: This study demonstrates the presence of virulent L monocytogenes strains with virulent potential in pigs, with valuable implications in veterinary medicine and food safety.
- Phenotypic and genotypic antimicrobial resistance of "Listeria spp." in Spain
2024-06 Listeriosis is a zoonotic disease caused by Listeria monocytogenes and Listeria ivanovii. The genus Listeria currently includes 27 recognized species and is found throughout the environment. The number of systematic studies on antimicrobial resistance in L. monocytogenes isolates from domestic farms using antimicrobial substances is limited. Importantly, dairy ruminant farms are reservoir of hypervirulent lineage I L. monocytogenes isolates, previously associated with human clinical cases. Considering that the classes of antibiotics used in food-producing domestic animals are frequently the same or closely related to those used in human medicine, studies about the impact of antibiotic use on the acquisition of antibiotic resistance in Listeria spp. in domestic animal farms are, therefore, of high importance. Here, susceptibility to 25 antibiotics was determined. Eighty-one animal-related, 35 food and 21 human pathogenic Listeria spp. isolates and 114 animal-related non-pathogenic Listeria spp. isolates were tested. Whole genome sequencing data was used for molecular characterization. Regarding L. monocytogenes, 2 strains from the clinical-associated linage I showed resistance to erythromycin, both related to dairy ruminants. Acquired resistance to one antibiotic was exhibited in 1.5% of L. monocytogenes isolates compared with 14% of non-pathogenic Listeria spp. isolates. Resistance to tetracycline (7.9%), doxycycline (7.9%), penicillin (4.4%), and ampicillin (4.4%) were the most frequently observed in non-pathogenic Listeria spp. While resistance to two or more antibiotics (5.6%) was most common in Listeria spp., isolates, resistance to one antibiotic was also observed (1.6%). The present results show that non-pathogenic Listeria spp. harbour antimicrobial resistance genes.
- Kinetic and proteomic studies in milk show distinct patterns among major "Listeria monocytogenes" clones
2024-02-10 Listeria monocytogenes, a contaminant of raw milk, includes hypervirulent clonal complexes (CC) like CC1, CC4, and CC6, highly overrepresented in dairy products when compared to other food types. Whether their higher prevalence in dairy products is the consequence of a growth advantage in this food remains unknown. We examined growth kinetics of five L. monocytogenes isolates (CC1, CC4, CC6, CC9, and CC121) at 37 and 4 °C in ultra-high temperature (UHT) milk and raw milk. At 4 °C, hypovirulent CC9 and CC121 isolates exhibit better growth parameters in UHT milk compared to the hypervirulent CC1, CC4, and CC6 isolates. CC9 isolate in raw milk at 4 °C exhibited the fastest growth and the highest final concentrations. In contrast, hypervirulent isolates (CC1, CC4, and CC6) displayed better growth rates in UHT milk at 37 °C, the mammalian host temperature. Proteomic analysis of representative hyper- (CC1) and hypovirulent (CC9) isolates showed that they respond to milk cues differently with CC-specific traits. Proteins related to metabolism (such as LysA or different phosphotransferase systems), and stress response were upregulated in both isolates during growth in UHT milk. Our results show that there is a Listeria CC-specific and a Listeria CC-common response to the milk environment. These findings shed light on the overrepresentation of hypervirulent L. monocytogenes isolates in dairy products, suggesting that CC1 and CC4 overrepresentation in dairy products made of raw milk may arise from contamination during or after milking at the farm and discard an advantage of hypervirulent isolates in milk products when stored at refrigeration temperatures.
- Search of antimicrobial lactic acid bacteria from "Salmonella"-negative dogs
2022-01-03 Background: Salmonellosis is one of the most important food-borne zoonotic disease affecting both animals and humans. The objective of the present study was to identify gastrointestinal (GI) lactic acid bacteria (LAB) of canineorigin from Salmonella-negative dogs’ faeces able to inhibit monophasic Salmonella Typhimurium previously isolated from dogs’ faeces, in order to be used as a potential probiotic in pet nutrition. Results: Accordingly, 37 LAB were isolated from Salmonella-negative dogs’ faeces and tested against monophasic S. Typhimurium using the spot on lawn method out of which 7 strains showed an inhibition halo higher than 2.5 cm. These 7 strains were also tested with the co-culture method and one showed the greatest inhibition value (p < 0.05). Subsequently, the isolate was identified through 16S rRNA sequencing and sequence homology and designated as Ligilactobacillus salivarius (L. salivarius). LAB from Salmonella-positive dogs were also identified and none was the selected strain. Finally, to identify the mechanism of inhibition of L. salivarius, the supernatant was analyzed, and a dose response effect was observed. Conclusions: It is concluded that the canine-origin L. salivarius, could possess some in vitro functional attributes of a candidate probiotic and could prevent monophasic S. Typhimurium colonization or inhibit its activity if the infection occurs.
- Listeriolysin S : a bacteriocin from "Listeria monocytogenes" that induces membrane permeabilization in a contact-dependent manner
2021-10-01 Listeriolysin S (LLS) is a thiazole/oxazole–modified microcin (TOMM) produced by hypervirulent clones of Listeria monocytogenes. LLS targets specific gram-positive bacteria and modulates the host intestinal microbiota composition. To characterize the mechanism of LLS transfer to target bacteria and its bactericidal function, we first investigated its subcellular distribution in LLS-producer bacteria. Using subcellular fractionation assays, transmission electron microscopy, and single-molecule superresolution microscopy,we identified that LLS remains associated with the bacterial cell membrane and cytoplasm and is not secreted to the bacterial extracellular space. Only living LLS-producer bacteria (and not purified LLS-positive bacterial membranes) display bactericidal activity. Applying transwell coculture systems and microfluidic-coupled microscopy, we determined that LLS requires direct contact between LLS-producer and -target bacteria in order to display bactericidal activity, and thus behaves as a contact-dependent bacteriocin. Contact-dependent exposure to LLS leads to permeabilization/depolarization of the target bacterial cell membrane and adenosine triphosphate (ATP) release. Additionally, we show that lipoteichoic acids (LTAs) can interact with LLS and that LTA decorations influence bacterial susceptibility to LLS. Overall, our results suggest that LLS is a TOMM that displays a contact-dependent inhibition mechanism.
- Ruminant-associated "Listeria monocytogenes" isolates belong preferentially to dairy-associated hypervirulent clones : a longitudinal study in 19 farms
2021-12-04 Studies have shown that ruminants constitute reservoirs of Listeria monocytogenes, but little is known about the epidemiology and genetic diversity of this pathogen within farms. Here we conducted a largescale longitudinal study to monitor Listeria spp. in 19 dairy farms during three consecutive seasons (N = 3251 samples). L. innocua was the most prevalent species, followed by L. monocytogenes. Listeria monocytogenes was detected in 52.6% of farms and more frequently in cattle (4.1%) and sheep (4.5%) than in goat farms (0.2%). Lineage I accounted for 69% of L. monocytogenes isolates. Among animal samples, the most prevalent sublineages (SL) and clonal complexes (CC) were SL1/CC1, SL219/CC4, SL26/CC26 and SL87/CC87, whereas SL666/CC666 was most prevalent in environmental samples. Sixtyone different L. monocytogenes cgMLST types were found, 28% common to different animals and/or surfaces within the same farm and 21% previously reported elsewhere in the context of food and human surveillance. Listeria monocytogenes prevalence was not affected by farm hygiene but by season: higher prevalence was observed during winter in cattle, and during winter and spring in sheep farms. Cows in their second lactation had a higher probability of L. monocytogenes faecal shedding. This study highlights dairy farms as a reservoir for hypervirulent L. monocytogenes.